Precambrian Research 90 (1998) 29 58

Precambrian Research 90 (1998) 29 58 Transamazonian Orogeny in the Southern São Francisco Craton Region, Minas Gerais, Brazil: evidence for Paleoproterozoic collision and collapse in the Quadrilátero Ferrífero Fernando F. Alkmim a, Stephen Marshak b,* a Departamento de Geologia, Universidade Federal de Ouro Preto, Morro do Cruzeiro, Ouro Preto, M.G. 35.400, Brazil b Department of Geology, University of Illinois, 1301 W. Green Street, Urbana, IL 61801, USA Received 29 April 1997; accepted 8 January 1998 Abstract The Paleoproterozoic Transamazonian orogeny yielded a series of discrete orogens in Brazil. The present field study in the Quadrilátero Ferrífero (QF) indicates that the southern São Francisco craton region of the Brazilian highlands preserves a portion of one of these orogens. Two sets of Transamazonian structures occur in this region. The first consists of northwest-verging folds and thrusts affecting supracrustal sequences. It is suggested that this set formed in a fold-thrust belt setting shortly after 2.125 Ga, during the closure of a passive-margin basin that had initiated along the margins of a preexisting continental mass at ca 2.5 Ga. The second set consists of structures defining the prominent dome-and-keel architecture of the QF. This set, a consequence of the emplacement of basement domes against supracrustal rocks at 2.095 Ga, may reflect the consequences of orogenic collapse. Narrow, conglomerate-filled intermontane basins may have formed coevally with dome emplacement. Formation of an ocean basin east of the present-day São Francisco craton eventually occurred in Late Mesoproterozoic. In effect, the Transamazonian orogen of the QF represents the collision and collapse stages of a Paleoproterozoic Wilson cycle. The contractional phase of the Transamazonian orogeny probably represents accretion of an offshore arc to the eastern and southeastern margin of the present-day São Francisco craton region. The arc, and an associated suture, may be traced in the Brasiliano (Pan African) orogen east of the São Francisco craton, northwards into the northeastern lobe of the São Francisco craton. Clearly, initial assembly of crustal blocks to form a larger continent involving South America occurred during the Paleoproterozoic (2.1 Ga). Post-Transamazonian rifting of this continent created the basins which were later inverted during the Brasiliano assembly of Gondwana. 1998 Elsevier Science B.V. Keywords: Brazil; Collision tectonics; Orogenic collapse; Orogeny; Proterozoic * Corresponding author. Fax: 001 217 244 4996; e-mail: smarshak@uiuc.edu 0301-9268/98/$19.00 1998 Elsevier Science B.V. All rights reserved. PII S0301-9268(98)00032-1

30 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 1. Introduction may also have formed during the Uruaçuano orogeny, but this interpretation now appears unlikely. Compilations of existing geochronologic data The fifth event, the Brasiliano orogeny (=Pan indicate that five major tectonothermal events African orogeny of other Gondwanide continents), affected South America during the Precambrian occurred between 0.7 and 0.45 Ga (Neo- [ Fig. 1; Almeida et al. (1981); Almeida and Hasui proterozoic/early Paleozoic). (1984); Brito Neves (1990); Brito Neves and In southeastern Brazil, the overall nature of the Cordani (1991); Brito Neves et al. ( 1996); Espinhaço and Brasiliano events is fairly clear. Schobbenhaus and Campos ( 1984); Teixeira Rifting during the Espinhaço event broke up a (1993)]. The first, the Jequié orogeny, took place large continent into smaller blocks. These blocks, between 2.8 and 2.6 Ga (Late Archean time). The plus others, reassembled to form Gondwana second, the Transamazonian orogeny, occurred during the Brasiliano event. Thus, the Brasiliano between 2.1 and 1.8 Ga (Paleoproterozoic time); orogeny created a network of collisional orogens the name Transamazonian was coined because reflecting closure of oceanic and ensialic basins. these dates were first obtained in rocks from a Pre-Espinhaço tectonic events, however, remain broad belt transecting the Amazon region and poorly understood because structures associated Guiana shield ( Hurley et al., 1967). The third, with these events are not well exposed or dated, here referred to as the Espinhaço rifting event have been severely overprinted by Brasiliano defor- [ Estaterian taphrogenesis of Brito Neves et al. mation, or have been buried by Neoproterozoic (1996)], occurred toward the end of the and Phanerozoic cover. As a result, questions Paleoproterozoic (between 1.78 and 1.70 Ga) and about the older events remain incompletely was associated with widespread acid and basic answered. In what tectonic setting did the older magmatism. The fourth, the Uruaçuano orogeny, events occur? Did geologic processes during these appears to be limited to northern Brazil, where events resemble those that occurred during younbelts of metamorphic rocks yield ages between 1.5 ger events? Are these events manifestations of a and 1.1 Ga. Almeida (1967) postulated that some pre-brasiliano continental assembly? This paper tectonic features of the central Brazil highlands addresses these questions as they pertain to the Transamazonian orogeny. Our structural analysis, along with results of recent geochronological studies ( Romano, 1989; Machado et al., 1989a,b; Teixeira and Figueiredo, 1991; Machado and Carneiro, 1992; Machado et al., 1992; Teixeira, 1993; Babinski et al., 1991, 1993; Carneiro et al., 1995; Noce, 1995; Machado et al., 1996; Schrank and Machado, 1996a,b) indicates that the Quadrilátero Ferrífero (QF), a portion of the southern São Francisco craton in the Brazilian highlands, contains relicts of a Transamazonian orogen. We describe Transamazonian structures of the southern São Francisco craton, provide a tectonic model to explain the formation of these structures, and correlate these structures with other Transamazonian features of the Brazilian high- Fig. 1. Chronology chart illustrating the approximate age range lands. We also discuss the role that this orogen, of thermo-tectonic events affecting South America during the Precambrian (cf Almeida and Hasui, 1984; Schobbenhaus and and the Transamazonian orogeny in general, Campos, 1984). played in the assembly of South America.

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 31 2. Geology of the Southern São Francisco Craton basin, a continental-interior platform covered Region by Paleo/Mesoproterozoic to Mesozoic strata. The São Francisco craton ( Almeida, 1977, Platform strata have been eroded from the southern tip of the craton, exposing a region of exposed 1981), which was continuous with the Congo Archean and Paleoproterozoic rocks (Fig. 3) craton of Africa prior to the opening of the including the QF, the focus of this paper, a major South Atlantic, is one of four cratons ( Fig. 2), mining district [ Figs. 3 and 4; Dorr (1969)]. defined in South America as Archean and Paleoproterozoic crustal blocks that were not sig- 2.1. Lithostratigraphic Units of the Quadrilátero nificantly affected by Brasiliano or younger orogenic Ferrífero remobilization. It encompasses a substantial part of the southern Brazil highlands. This craton The QF contains five principal lithostratigraphic consists of two lobes: a southern lobe and a units: Archean crystalline basement; the Rio das northeastern lobe ( Fig. 3). Brasiliano fold-thrust Velhas Supergroup; the Minas Supergroup; postbelts fringe all sides of the craton. These belts (the Minas Intrusives; and the Itacolomi Group Brasília, the Alto Rio Grande, the Araçuaí, the ( Fig. 5). Sergipano and the Riacho do Pontal ) all verge toward the interior of the craton. The interior 2.1.1. Archean crystalline basement of the southern lobe includes the São Francisco Basement crystalline rocks include a 2.9 3.2 Ga gneiss/migmatite complex ( Teixeira, 1985, 1993; Machado and Carneiro, 1992; Carneiro et al., 1995) and two generations of voluminous Late Archean plutons: 2.78 2.77 Ga calk-alkaline plutons, and 2.73 to 2.61 anorogenic granites (Carneiro, 1992; Carneiro et al., 1994; Machado et al., 1992; Noce, 1995; Romano, 1989). 2.1.2. The Rio das Velhas Supergroup This unit consists of greenstone (basalt and komatiite), rhyolitic lava and intercalated sedimentary rock. Sedimentary units of the Supergroup include Algoma-type banded-iron formation (BIF), carbonates and siliciclastics. U Pb dates on zircons from felsic lavas yield an age of 2.776 Ga (Machado et al., 1992), while U Pb dates on detrital zircons and monazites from sedimentary units at the top of the Supergroup yield a maximum age of 2.857 Ga (Schrank and Machado, 1996b). Thus, the Rio das Velhas Supergroup, together with the 2.6 2.7 plutonic rocks, represent a classical Archean granite greenstone terrane. Fig. 2. Tectonic map of South America showing the four cratons (Amazonian, São Luis, São Francisco, Rio de la Plata). The Rio de la Plata craton is dashed because it is poorly exposed. Modified from Almeida et al. (1981). 2.1.3. Paleoproterozoic Minas Supergroup The Minas Supergroup is a metasedimentary unit that unconformably overlies the Rio das Velhas Supergroup (Fig. 5). Minas strata resist erosion and thus form ridges that tower above the

32 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 Fig. 3. Regional map of the São Francisco craton, showing the location of the northeastern and southern lobes, the bordering Brasiliano orogenic belts, the Espinhaço fold-thrust belt (EFB), and the QF. The box indicates area of Fig. 4. Modified from Alkmim et al. (1993). regions underlain by less resistant basement or these rocks were derived by erosion of an Archean greenstone, thereby creating some of the highest source [maximum age of 2.65 Ga; Noce ( 1995); relief in the southern Brazil Highlands. Minas Carneiro et al. (1995); Renger et al. (1995); ridges of the QF roughly outline the shape of a Machado et al., 1993, 1996). Caraça metasedi- quadrilateral hence the name, Quadrilátero ments are overlain by Lake Superior-type BIF Ferrífero (Fig. 4). (Cauê Formation), which in turn grades upwards Basal units of the Minas Supergroup consist of into a carbonate sequence (Gandarela Formation; alluvial conglomerate and sandstone, which grade Fig. 5). Babinski et al. (1991, 1993) dated upwards into shallow-water marine pelites Gandarela carbonates using the Pb Pb technique ( Tamanduá and Caraça Groups; Fig. 5). Pb Pb and concluded that the unit was deposited ca and U Pb dates on detrital zircons indicate that 2.42 Ga. These authors estimate deposition of the

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 33 Fig. 4. Geologic map of the QF region, showing the distribution of basement crystalline rocks, Rio das Velhas Supergroup, Minas Supergroup and Itacolomi Group. Principal structures are labeled. Based on Dorr (1969) and Romano (1989). Boxes show locations of Figs. 6, 8a, 11a and 12. underlying Cauê Formation BIF occurred ca In 4 km-wide aureole along the contact, they have 2.52 Ga. A thick pile of shallow-water and deltaic been metamorphosed to amphibolite grade ( Herz, strata (Piracicaba Group) overlies the Gandarela 1978; Jordt-Evangelista et al., 1992; Marshak et al., Formation, locally unconformably. The Piracicaba 1992). Mylonitized Sabará from the contact aure- Group contains detrital zircons in the same age ole yields a Sm Nd garnet muscovite whole rock range as those of the Tamanduá and Caraça groups age of 2.095 Ga (Marshak et al., 1997a,b). (Machado et al., 1996). The Sabará Group, is a 3.0 3.5 km-thick sequence of turbidites, tuffs, volcaniclastics, con- 2.1.4. Post-Minas intrusives glomerates and diamictites derived from a source Thin, undated, pegmatite veins cut Minas rocks to the east-southeast (Barbosa, 1968, 1979; Dorr, ( Herz, 1970). Similar pegmatites, which cut basement 1969; Renger et al., 1995). It unconformably overlies in the QF, yielded a monazite U Pb age of the Piracicaba Group. U Pb dating of zircons 2.06 Ga (Noce, 1995). Some of the granitoids from Sabará Group tuffs yields an age of 2.125 Ga, cutting metamorphic complexes of domes in the which Machado et al. (1989a, 1992) interpret to QF could be post-minas in age, but none have yet be roughly the depositional age of this unit. Thus, yielded a post-minas date. However, the Alto the Sabará is significantly younger than underlying Maranhão granitoid pluton, which crops out just units of the Minas Supergroup. Sabará Group metasediments in the northern QF lie in shear contact with Archean rocks of a basement dome. to the southeast of the QF, has yielded a U Pb zircon date of 2.08 Ga ( Noce, 1995). North- to northwest-striking mafic dikes also cut the Minas

34 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 Fig. 5. Stratigraphic column of the QF. Column on the right provides radiometric dating constraints. The right-hand portion of the column represents relationships in the eastern part of the QF, while the left-hand side of the chart represents relationships in the western part of the QF. Supergroup throughout the QF. One of these dikes BIF clasts [probably Cauê; Lacourt (1935); yielded 1.714 Ga date (Silva et al., 1995). Barbosa (1968); Dorr (1969)], crops out in narrow fault-bounded wedges at the southeastern corner 2.1.5. The Itacolomi Group of the QF (Fig. 4). Detrital zircons from the unit The Itacolomi Group, a unit consisting of coarse yielded U Pb dates of 2.1 Ga (Machado et al., sandstone and polymict conglomerate containing 1993, 1996). Thus, the Itacolomi Group is of the

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 35 same age or a little younger than the Sabará QF. East of the Brasiliano front, west-verging Group, and is significantly younger that other structures include a widespread east-southeast-dipunits of the Minas Supergroup. ping schistosity, north-trending folds and a north south-trending crenulation lineation. Stretching 2.2. Geologic architecture of the QF lineations parallel the dominant set of mesoscopic fold axes in Minas strata; both plunge preferentially In the QF, Archean basement (gneiss, migmatite toward S80 E at30. West of the Brasiliano and granitoid) occurs in domes (e.g. Bação, front, Brasiliano tectonism appears to be manifested Bonfim, Caeté, Santa Rita, Belo Horizonte, dominantly by northeast-trending dextral Florestal and Ita na) surrounded by keels strike-slip shear zones. (troughs) containing the Rio das Velhas Supergroup and the Minas Supergroup ( Fig. 4). Keels include large first-order synclines (e.g. 3. Previous models of post-minas tectonism in the Moeda, Dom Bosco, Pitangui-Peti, Mateus Leme QF and Souzas synclines) and a large homocline (the Serra do Curral homocline). Shear zones occur at Numerous publications over the years, beginning the contact between supracrustal rocks and basement with the contributions of Guimarães (1931, around all the domes. Rocks of the 1966) and Barbosa (1961, 1968), have provided supracrustal sequence adjacent to the domes contain models to explain the complex map pattern of the a distinct high-t/low-p metamorphic aureole QF. Subsequent to the first 7.5 quadrangle map- ( Herz, 1978; Jordt-Evangelista et al., 1992; ping in the QF, Dorr (1969) attributed all post- Marshak et al., 1992) and intersections between Itacolomi structures of the QF to the Minas keels closely resemble syncline triple points Orogeny, which he postulated consisted of two described in other dome-and-keel provinces (see phases an early northwest-verging phase and a Jelsma et al., 1993; Romano, 1989). Thus, the later west-verging phase. Dorr did not recognize geologic map pattern of the QF defines a dome- the existence of basement in the region, and viewed and-keel structure (cf Anhausser et al., 1969). all the domes as plutons which intruded prede- Dome-and-keel structure, though it dominates formed supracrustal rocks. Subsequent structural the map pattern, is not the only structural feature analyses (e.g. Fleischer, 1971; Hackspacher, 1979; suggested by the map of the QF. There are two Pires, 1979; Glöckner, 1982; Rosière, 1981; Guba, other sets of pronounced post-minas structures. 1982; Evangelista, 1984; Alkmim, 1985; Gomes, One set includes northeast-trending regional-scale 1985; Chemale, 1987) have led to different interpretations, folds (the Gandarela syncline, the Conceição anticline, of which there have been several. For the northeastern half of Ouro Fino syncline example, Drake and Morgan (1980) implied that and the Itabira and Monlevade synclinoria; the domes of the region represented interference Fig. 4). The other set, generally attributed to the structures and suggested that they were comparable Neoproterozoic Brasiliano orogeny, includes a to Appalachian mantled gneiss domes, while series of west-vergent thrust faults and associated Ladeira and Viveiros (1984) considered QF structural structures. Penetrative tectonic fabrics ( phyllitic patterns to be indicative of a very complex schistosity, mylonitic foliation, crenulation cleav- history of polyphase folding. age, stretching lineations) related to the Brasiliano Alkmim et al. (1988) argued for the existence event pervasively overprint preexisting structures of two major compressional events affecting Minas in the region east of a roughly north-trending line metasediments, an early northwest-verging event that follows the west edge of the Moeda syncline and a later west-verging event, between which an and cuts northwards across the Serra do Curral enigmatic uplift event emplaced the domes verti- [ Fig. 4; e.g. Chemale et al. (1994)]. This line, here cally into the supracrustal assemblage. They suggested referred to as the Brasiliano front, is the western that the Moeda and Dom Bosco synclines limit of pervasive Brasiliano reactivation in the formed during the vertical uplift event, and that

36 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 the northwest-vergent contraction was a manifesta- the supracrustal assemblage. As the domes rose, tion of the Transamazonian event, while the westverging supracrustal units became incorporated in interdia- contraction was a manifestation of the pir synforms, thereby creating the pronounced Brasiliano event. dome-and-keel geometry. Based on cross-cutting Marshak and Alkmim ( 1989) proposed a more relations, they proposed that this event postdated complex multistage history of contractional and northwest-verging thrusting and predated west- extensional tectonic events to explain structures of verging Brasiliano thrusting, essentially the the QF. They distinguished between three sets of sequence of events proposed by Alkmim et al. contractional structures, one trending north- ( 1988). Subsequent dating of metamorphic aureoles east southwest, one trending east west and one in Minas strata of dome-border shear zones trending north south. Based on cross-cutting has yielded a date of 2.095 Ga ( Marshak et al., relationships, they concluded that the northeasttrending 1993, 1997a). Based on this age, Marshak et al. set represented D1, the east west set ( 1993, 1997a) proposed that dome emplacement represented D2, and that the north south set represented occurred during orogenic collapse of the D3. Further, they correlated D1 with the Transamazonian orogen. Marshak et al. ( 1997b), Transamazonian orogeny, D2 with the Uruaçuano emphasize that dome and keel formation may orogeny, and D3 with the Brasiliano orogeny. better be viewed as a crustal-scale analog of boudinage. Based on the occurrence of younger-on-older They suggest that, in this context, the keels faults, hanging-wall down shear-sense indicators, effectively represent grabens formed during extensional and on the occurrence of mafic dikes in the QF, collapse. Marshak and Alkmim also suggested that a major Chauvet et al. ( 1994) postulated a three-stage extensional event (DE) occurred between D2 and model for the tectonic evolution of the QF. D3. According to these authors, a tectonomagmatic Hippertt et al. (1992) found normal-displacement event during the Paleoproterozoic was responsible shear indicators in the mylonites at the for the uplift of the basement domes and genera- contact between the basement of the Bonfim dome tion of the regional folds. During the Brasiliano and the Minas metasediments of the western limb event, a contractional deformation, which led to of the Moeda syncline, providing further evidence development of west-northwest-verging folds and for extension. Chemale et al. (1991, 1994), made faults, was followed by the extensional tectonism, due to the gravitational collapse of the thrust stack. an extensive compilation of structural and geochronological data from the QF. They proposed that post-minas evolution of the QF was marked by two main deformational events. The first episode was a Paleoproterozoic (2.06 2.00 Ga) extensional event which the authors attributed to the Transamazonian event. The second was a Neoproterozoic (0.6 0.5 Ga) contractional event which the authors attributed to the Brasiliano event. Chemale et al. (1991, 1994) considered formation of synformal keels in the region to be a consequence of Paleoproterozoic extension. They portray the domes to be rollover anticlines above listric normal faults, and view the synformal keels as basins filling the gap between the fault and the dome surface. Marshak et al. (1992) suggested that the doming event could best be explained as a consequence of diapiric-like movement of basement upwards into 4. Evidence for Transamazonian contraction in the QF From the above description, it is clear that the interpretation of the tectonic history of the QF remains controversial. Did the region experience a Transamazonian contractional orogeny or not? As originally defined, the Transamazonian orogeny occurred between 2.2 and 1.8 Ga. Thus, candidates for Transamazonian contractional structures in the QF are defined to be folds or faults that have the following characteristics: ( 1) their development resulted in contractional (shortening) strain; ( 2) they involve Minas Supergroup strata (i.e. are

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 37 certainly post-2.4 and probably post- juxtaposes gneisses and migmatites of the Bonfim 2.125 Ga); dome with the Moeda Quartzite along the south (3) they are overprinted by dome-border shear margin of the homocline ( Fig. 6). Dome-border zones and associated metamorphic aureoles shear zones, in turn, are overprinted by northeast- (i.e. must be pre-2.095); and striking dextral strike-slip shear zones, and the (4) in the central to eastern QF they are overprinted northwest-verging folds and faults are affected by by west-vergent Brasiliano structures. north-trending open folds and a north-striking In this section, we describe contractional structures crenulation cleavage. that meet all four criteria. Along a transect following highway BR 381 across the south flank of the homocline in the 4.1. Western Serra do Curral western Serra do Curral (Figs. 6 and 7), a shear zone that dips between 35 SE and 80 SE that In the western QF, the Minas Supergroup crops places Nova Lima Group schist over overturned out in the northeast southwest trending Serra do beds of the Moeda Quartzite was observed. Curral. Morphologically, the 80 km-long Serra do Kinematic indicators in the shear zone require Curral defines the northwest edge of the QF hanging-wall-up shear (top-to-the-northwest), so (Fig. 4). Overall, the Serra do Curral is a homocline the shear zone is a northwest-verging thrust. Strata in which bedding dips steeply to the south- of the footwall are overturned and contain cas- east, though detailed mapping studies (Pires, 1979; cades of asymmetric parasitic folds whose geome- Hackspacher, 1979; Romano, 1989; Chemale et al., try suggests that they are on the overturned limb 1991, 1994; Alkmim et al., 1996) reveal local of a regional northwest-verging anticline ( Figs. 6 structural complexities. and 7). Between BR 381 and Ponta da Serra The stratigraphic succession, as well as locally (Fig. 6), Romano (1989) and Romano et al. preserved sedimentary structures, indicate that ( 1991) mapped an array of northwest-verging beds comprising the Serra do Curral homocline thrusts. are overturned. This observation led Pomerene East of Sarzedo, dextral strike-slip shear zones (1964), Dorr (1969) and Pires (1979) to propose attributed to Brasiliano deformation increasingly that the homocline represents a remnant of the overprint structures of the Serra do Curral homocline. overturned limb of a northwest-vergent anticline. In addition, a series of north-striking normal Our observations confirm this proposal. faults, in some cases associated with 1.75 Ga mafic dikes, crosscut the homocline. In the Serra do Curral, west of Sarzedo (Figs. 6 and 7), tight northwest-verging asymmetric folds and southeast-dipping mesoscopic faults were 4.2. Central and Eastern Serra do Curral found [see also Romano (1989) and Romano et al. (1991)]. Movement on the faults accommodated 4.2.1. Junction of the Serra do Curral homocline hanging-wall-up (thrust) movement that resulted with the Moeda syncline in stratigraphic duplication. The geometry of the About 10 km southwest of the city of Belo folds suggests that they are parasitic folds on Horizonte, the Serra do Curral homocline the overturned limb of a northwest-verging intersects the north-northwest-trending Moeda regional fold, and the geometry of the thrusts syncline [ Figs. 4 and 8; Pomerene ( 1964); Dorr suggest that they are synthetic imbricate splays on ( 1969); Pires (1979) and Pires et al. (1993)]. The the forelimb of a thrust-related fold. These structures Moeda syncline is a first-order syncline that forms are cut by the normal-sense shear zones that the keel between the Bonfim and the Bação domes border basement domes. Specifically, a domeborder ( Fig. 4). Alkmim et al. (1996), utilizing the results shear zone juxtaposes gneisses and migmat- of their own new mapping as well as results of ites of the Belo Horizonte dome with overturned extensive iron-mining company exploratory dril- Piracicaba Group strata on the north margin of ling, confirmed that at this intersection the crest the homocline, and a dome-border shear zone of Serra do Curral is the overturned limb of a

38 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 Fig. 6. Simplified geologic map of the western Serra do Curral, based on Dorr (1969) and Romano (1989). The dashed line indicates the trace of Federal Highway 381. Cross-sections are provided by Fig. 7. northwest-verging asymmetric anticline ( Figs. 8 ( Fig. 11). An overturned stratigraphic succession and 9), as proposed by Pomerene (1964) and Pires crops out along the ridge crest. This exposure (1979). But in contrast to the western Serra do contains pervasive asymmetric northeast-trending Curral, the region south of Belo Horizonte also folds (F ), whose attitude and vergence indicates 1 provides exposures of the right-side-up limb of that they are parasitic folds on the overturned this anticline. At the north end of the Moeda limb of a northwest-verging anticline. These folds, syncline, the Serra do Curral anticline has been which have been refolded around a second generation of east-trending folds (F ), must pre-date 2 refolded by the Moeda syncline, creating an interference saddle ( Fig. 10). If the Moeda syncline west-verging Brasiliano deformation, for they are initiated at the time of doming, then the Serra do cut by a north-striking (i.e. Brasiliano) foliation Curral anticline must predate doming, that is, it is (S ) with an east-plunging lineation (L ; Fig. 11). t S2 Transamazonian (Fig. 10). West-verging Brasiliano To the north of the ridge, units that comprise the thrusts (the Gorduras, Mutuca, Catarina and homocline wrap around a northeast-trending, Barreiro faults; Figs. 8 10) cut the Moeda syncline northwest-verging syncline, the Piedade syncline and the Serra do Curral anticline. In addition, the ( Dorr, 1969). A series of north-northeast-striking region contains numerous dextral strike-slip dextral shear zones (S ) crosscut the Piedade syn- sz shear zones. cline [ Fig. 11; Pires and Godoy (1995)]. The boundary between the northwest-limb of the 4.3. Serra da Piedade Syncline Piedade syncline and the basement dome to the A high ridge, locally known as the Serra da Piedade, forms the eastern end of Serra do Curral north is a shear zone that has been reactivated by the Brasiliano event and thus now displays reverse dextral movement. However, the syncline at this

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 39 (a) (b) (c) Fig. 7. Cross sections across the map area of Fig. 6. Bedding and foliation geometry are shown schematically. (a) Cross-section at ZZ ; zones of the metamorphic aureole adjacent to the dome-border shear zone are indicated; (b) cross-section at YY ; the position of the metamorphic aureole is indicated; (c) cross-section at XX. There is no metamorphic aureole along this cross-section. locality has been overprinted by a typical dome- posed on a succession of beds striking at a small border metamorphic aureole, so the development angle to the west-northwest Brasiliano transport of the syncline is either pre- or syn-dome emplace- direction. The pre-brasiliano bedding attitude ment. To the south of the ridge a reverse-dextral reflects the large northwest-verging folds of the shear zone juxtaposes Rio das Velhas schist with region. Minas metasediments in the overturned limb of the homocline (Fig. 11). 4.4. Hanging wall of the Fundão-Cambotas fault If the youngest generation of folds in the Serra system de Piedade is Brasiliano, then their axes parallel the stretching lineation on east-dipping Brasiliano According to Endo and Fonseca (1992), foliation. This puzzling geometry has been documented the Fundão-Cambotas fault system consists of throughout the eastern QF by many two major Brasiliano west-verging thrust faults authors. As shown in the block diagram of Fig. 11(b), We suggest that this geometry developed because Brasiliano deformation was superim- ( Fig. 12). The fault system has an arcuate trace, presumably because the westward propagation of thrust sheets above the faults was confined by the

40 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 (a) Fig. 8. Structural relations at the intersection between the Serra do Curral homocline and the Moeda Syncline. (a) Simplified geologic map based on Alkmim et al. (1996). 1, Gorduras fault; 2, Mutuca fault; 3, Catarina fault; 4, Barreiro fault; (b) equal-area, lower hemisphere stereoplots of bedding and foliation planes for the region of the junction of the Serra do Curral homocline with the Moeda Syncline. preexisting Caeté dome to the north and Mariana folds are overprinted by north-striking phyllitic basement arch to the south. The faults probably cleavage and associated mesoscopic-scale folds and link in the subsurface to the east to the north- shear zones. In the Serra do Caraça, Tamanduá striking Água Quente fault (Dorr, 1969), which quartzite wraps around a series of northwest- places a slice of basement gneiss westwards over verging folds, which have been refolded around a Minas Supergroup strata ( Endo and Fonseca, large, roughly north-trending syncline in the west 1992). and have been cut by a family of north-striking The central and northern portions of the thrust faults in the east. The northwest-verging Fundão-Cambotas thrust sheet are relatively less folds in the Serra do Caraça, which are open and deformed by Brasiliano shortening, and have not have a wavelength of ca 300 m, have been cut by been affected by dome emplacement. In this por- a large number of north-striking mafic dikes tion of the thrust sheet, Minas Supergroup strata (Fig. 13). have been folded around a series of northwestverging and northeast-trending regional-scale 4.5. Isolated keels east of the QF folds. Examples of these structures include the Gandarela syncline, the Conceição anticline, the Dorr ( 1969) mapped isolated keels of Nova northeastern half of the Ouro Fino syncline, and a fold train in the Serra do Caraça (Fig. 12). With the exception of the Serra do Caraça, all these Lima and Minas supracrustal rocks, surrounded by a sea of basement, in the region northeast of the QF near the towns of Itabira and João

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 41 (b) Fig. 8. (continued) Cross-cutting relations indicate that emplacement of the domes and the consequent formation of present dome-and-keel structure is the second post-minas Supergroup deformational event to affect the QF. The borders of the domes, west of the Brasiliano front, are shear zones in which kinematic indicators clearly indicate supracrustalside-down displacement. These shear zones pre- date west-verging (Brasiliano) thrusting and associated dextral/reverse shear. Monlevade ( Figs. 4 and 12). These keels contain thick sections of BIF, and thus have become important mining districts. Within the keels, strata wrap around numerous northeast-trending folds. In the Itabira keel, these folds intersect the keel border at an angle of ca 15 20 (Fig. 12), and thus appear to pre-date keel formation (i.e. are pre-doming structures). Brasiliano folds, fabrics, and faults overprint the northeast-trending folds. Specifically, north-trending folds tightened and refolded pre-dome folds of the Itabira keel, and north-striking thrust-sense shear zones truncate the folds. Northeast-trending dextral/reverse shear zones also have developed in the keels (Chemale, 1987; Guba, 1982). 5. Evidence for transamazonian orogenic collapse in the QF 5.1. The dome-emplacement event

42 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 Fig. 9. Cross-sections of the map shown on Fig. 8. (a) Cross-section at XX. (b) Cross-section at YY. (c) Cross-section at ZZ. Bedding is portrayed schematically. 5.1.1. Northern border of the Bonfim dome by weak dextral/reverse shear zones attributed to Around the northern border of the Bonfim the Brasiliano event. West of the Paraopeba River dome, the Moeda Quartzite is juxtaposed against Valley, the dome-border shear zone between basement the basement gneisses by a shear zone, which dips gneisses and supracrustal rocks bends to the 70 85 to the north (Figs. 6 and 7). Along this southwest and south, and is located in the Rio das shear zone, close to the contact with the gneiss, Velhas schist. Here, it is associated with a Moeda Quartzite is mylonitized and has undergone 100 150 m-wide garnet staurolite metamorphic feldspathization ( Pomerene, 1964). Kinematic aureole. indicators (S C-structure, porphyroclast shadows and asymmetric foliation trajectories) indicate 5.1.2. Southern border of the Belo Horizonte dome normal to dextral/normal shear in the zone. The Along the southern border the Belo Horizonte dome-border shear zone overprints northwest- dome ( Fig. 6), a normal-sense shear zone juxtaposes verging folds and faults, and is itself overprinted gneiss and granitoid to the north against

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 43 Fig. 10. Evolutionary model for the development of the junction between the Serra do Curral homocline and the Moeda syncline. The surface portrayed represents the base of the Cauê Formation (white represents the top of the surface and black represents its bottom). (a) Formation of the Serra do Curral anticline due to Transamazonian NW-contraction. (b) Bending of the Serra do Curral anticline due to the development of dome-and-keel architecture. Vertical arrows represent the displacement of basement relative to the base of the Cauê. (c) Formation of complex geometry due to Brasiliano east west shortening (compare with the geologic map of Fig. 8). The lightly shaded surfaces are faults. Sabará schist to the south. In map view, this of west-verging (Brasiliano) contractional structures. contact has an arcuate trajectory as it wraps Radiometric dating constrains dome-andcontact around the border of the dome. Its dip varies keel formation to be late or post Transamazonian between 50 and 90 towards the south. ( Marshak et al., 1997a). Dome-and-keel architec- Microstructural studies (Jordt-Evangelista et al., ture of the QF has been explained by numerous 1992; Marshak et al., 1992) show a clear hangingwall-down different mechanisms (e.g. Barbosa, 1968; Dorr, sense of displacement for the contact. 1969; Gomes, 1985; Chemale et al., 1991, 1994; A metamorphic aureole in the Sabará follows the Hippertt, 1994; Marshak et al., 1992, 1997a). More contact. Jordt-Evangelista et al. (1992) mapped recent interpretations focus on the possibility that sillimanite, cordierite, andalusite and biotite zones doming developed during extensional tectonism. in this aureole, and further showed that blastesis Structural features suggest that doming occurred of alumino-silicate polymorphs are syn- to postshear during a regional extension, for dome emplacement with respect to the development of the shear involved juxtaposition of basement against zone. The dome-border shear zone is overprinted supracrustal assemblages by normal-sense dis- by north-trending folds, associated with a crenula- placement on steeply dipping shear zones. Further, tion cleavage, and also by weak dextral/reverse the timing of dome rise clearly indicates that it shear zones attributed to the Brasiliano event. occurred at the final stage of Transamazonian Sm Nd dates on syn-shear garnets from the tectonism, a time during which collisional orogens zone yield an age of 2.095 Ga, that is, late typically undergo extensional collapse. Marshak Transamazonian (Marshak et al., 1997a). et al. (1997a,b) point out that in this context, dome emplacement could reflect the ductile sinking 5.1.3. Extensional interpretation of dome of weak, dense supracrustal rocks into grabens emplacement forming around basement blocks during progressive As indicated by the above description, west of extension of the crust. In effect, the overall the Brasiliano front, development of the present configuration of late Transamazonian dome-andkeel dome-and-keel architecture clearly postdates formation architecture is suggestive of crustal-scale boudome-and-keel of northwest-verging ( Transamazonian dinage, involving two units ( basement and cover) contractional ) structures, and predates formation of markedly contrasting viscosity. Considering the

44 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 Fig. 11. Structural relations in the Serra da Piedade. (a) Simplified map of the eastern Serra do Curral, showing the Piedade ridge and the Serra da Piedade syncline [based on Alves (1969) and Pires and Godoy (1995)]. (b) Block diagram illustrating the interference of two generations of macroscopic structures in the Cauê itabirite of the Serra da Piedade S 0 is bedding. F 1 folds are parasitic folds in the vertical limb of the Transamazonian-age Piedade syncline. L 2 is the stretching lineation on the S t foliation. F 2 folds, S sz shear zones, S t foliation and L 2 stretching lineation are younger structures, associated with west-northwest-directed Brasiliano contraction. relatively high temperature of the basement at this ment, the rise of basement relative to supracrustal time, as well as the density inversion established rocks may have been amplified by its relative when Transamazonian thrusting and folding buoyancy. Juxtaposition of hot, low-density basement substantially thickened the iron-rich supracrustal beneath relatively cool high-density assemblage above the intermediate/silicic base- supracrustal assemblage could reflect transcrustal

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 45 Fig. 12. Geologic map of the northeastern QF, showing the Fundão-Cambotas fault system and the isolated Itabira keel [based on Dorr (1969) and Endo and Fonseca (1992)]. This map illustrates the northeast southwest trend of regional structures (e.g. Gandarela syncline, Conceição anticline and northeastern end of the Agua Quente fault) in the hanging wall of the Fundão-Cambotas fault system. normal shear bringing basement up from depth, or heating by post-orogenic plutonism [see also Kusky (1993)]. The concept that dome emplacement accompanied extensional tectonism is attractive because extensional tectonism explains how space for the basement domes developed, why normal-fault-bounded keels developed, and why the region heated up. Typically, extensional tectonism is accompanied by plutonism. Evidence for such plutonism in the QF is not abundant (no large Transamazonian plutons have yet been documented in the QF). But U Pb dates on monazites and titanites from pegmatites, amphibolites and migmatites in the Bação and Belo Horizonte domes indicates that between 2.04 and 2.06 Ga, amphibolite-facies

46 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 Fig. 13. Simplified structural map of the northern portion of the Serra do Caraça. Note the interference of two sets of structures east-northeast-trending folds are refolded and truncated by north south-trending structures. Location of the map is shown in Fig. 12. metamorphism occurred in basement along with 5.2. The Itacolomi Group a possible record of some partial melting and generation of pegmatite Transamazonian orogenic collapse (Machado et al., 1992; Noce, 1995). Also, Schrank and Machado (1996a) have recently shown that If the dome-emplacement event represents extensional gold mineralization of the Morro Velho and collapse of the Transamazonian orogen, one Passagem mines, hosted respectively in Rio das might expect to find a record of syn-extensional Velhas and Minas Supergroups, formed between deposition. The Itacolomi Group may be the 2.10 and 2.06 Ga. record of such deposition. As noted earlier, the

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 47 Itacolomi is post-2.1 Ga, based on dating of its onal structures that cross-cut, and therefore postdate, detrital zircons. Further, the type Itacolomi in the structures that have already been described. southeastern QF contains clasts of Cauê-like BIF, Parallelism between this transport direction and indicating that its source terrane included rocks the transport direction in the Araçuaí belt, a well of the Minas Supergroup. These conglomerates do dated Brasiliano thrust belt that borders the eastern not correlate with the Espinhaço Supergroup of edge of the QF, has led most authors (e.g. the Cordilheira do Espinhaço (an inverted Belo de Oliveira et al., 1987; Chemale et al., 1991, Paleo/Mesoproterozoic rift basin fringing the east 1994) to relate the last generation of penetrative edge of the São Francisco craton north of the QF) contractional structures in the QF to the Brasiliano for two reasons. First, the source terrane for the orogeny. Specifically, the Neoproterozoic Espinhaço is the interior of the São Francisco Brasiliano deformation in the QF is manifested in craton, west of the Espinhaço basin (Martins Neto, several ways: 1996). Current indicators in the Itacolomi, how- ( 1) Throughout the QF east of the Brasiliano ever, indicate its source area lies to the eastnortheast tectonic front, supracrustal strata contain a (Glöckner, 1982; Alkmim, 1987). family of structures, including mesoscopic Second, the Espinhaço contains diamonds, suggesting folds, foliation (schistosity and phyllitic cleavdoes an Archean cratonic source. The Itacolomi age) and thrust-sense shear zones indicative of not contain diamonds, and thus has a regional transport in the direction west-north- different, younger, source. west. All these elements crosscut the northeasttrending It is proposed instead, following the interpretation folds of the QF. of Barbosa (1968) and Dorr (1969), that the ( 2) Throughout the QF, preexisting shear zones Itacolomi represents deposition in narrow intermontane and major lithologic contacts have been reactiafter troughs, perhaps grabens or half-grabens, vated as transpressional shear zones whose deposition of the Sabará Formation. displacement is compatible with regional Brasiliano contraction inverted these troughs and east west shortening. For example, in the thrust their contents over the older rocks of their northeastern Serra do Curral, shear zones margins, thereby explaining the present youngerblage along the border of the supracrustal assem- on-older thrust relationships observed in the southshear have been reactivated as dextral/reverse ern QF, as documented by Marshak and Alkmim zones. (1989). If this interpretation is correct, then the ( 3) Within supracrustal strata of east-trending Itacolomi is the stratigraphic record of postverging keels (e.g. the Dom Bosco syncline), west- Transamazonian orogenic collapse in the upperthese thrust faults developed. The traces of most crust. faults curve in map view to define tight It is probable that some of the extensional faults salients, convex toward the foreland. The of the QF may date from the Espinhaço extension geometry of these salients suggests that the event, at ca 1.75 Ga (Brito Neves et al., 1979; domes existed at the time of faulting and acted Machado et al., 1989a; Dussin and Dussin, 1995; as obstacles inhibiting foreland movement Uhlein et al., 1995), for dikes of this age occur in along the lateral boundaries of the faults the QF. Further, it is possible that some exten- so that they developed arcuate traces (see sional faults of the QF formed during post- Marshak, 1988; Chemale et al., 1994). Brasiliano extension. But the Itacolomi Group certainly predates Brasiliano contractional deformation, and may predate Espinhaço-age dikes. 7. Discussion 6. The Brasiliano Overprint To complete the structural picture of the QF, we briefly discuss a suite of west-verging contracti- 7.1. Summary of evidence for existence of a Transamazonian Orogen in the QF This paper has presented field observations demonstrating that, prior to the development of

48 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 pervasive west-verging Brasiliano structures, the ment of local salients and to transpressionally region of the QF contained the remnant of a reactivated shear zones) further requires that Transamazonian collisional orogen. The evidence doming predates the Brasiliano event. Thus, for this event can be summarized as follows: the Transamazonian event consisted of two (1) In the western QF (west of the Brasiliano phases. The first phase generated northwestverging front), there are numerous northwest-verging regional folds, and the second phase thrusts preserved in the Minas Supergroup of generated the dome-and-keel architecture. the Serra do Curral. (2) The Serra do Curral consists of the overturned limb of a regional-scale northwest verging anticline in which there are abundant mesoscopic 7.2. Tectonic synthesis parasitic folds. Both limbs of this anti- Based on the sequence of deformational events cline are preserved at the north end of the that are recognized in the QF, the following model Moeda syncline, where the northwest-verging is suggested for the tectonic history of the region anticline was clearly refolded by the Moeda ( Fig. 14). This model represents an update and syncline, and thus must predate the doming modification of the model proposed by Marshak event that created the syncline. and Alkmim ( 1989). It differs from the recent (3) In the eastern Serra do Curral (i.e. east of the tectonic model proposed by Chemale et al. (1994). Brasiliano front), northwest-verging regional folds have been refolded by mesoscopic folds attributed to the Brasiliano event, and thus 7.2.1. Creation of an Archean Granite-Greenstone must predate the Brasiliano event. Folds terrane at both mesoscopic and regional scales in The earliest basement crystalline rocks of the the hanging wall of the Brasiliano Fundãoknown about these rocks. Whatever continental QF region may be as old as 3.2 Ga, but little is Cambotas faults are northwest verging. Brasiliano fabrics and shear zones also clearly crustal fragments that were present served as the cut across these folds. basement on which a roughly 2.7 2.8 Ga green- (4) In the western QF, cross-cutting relations stone and sediment succession, the Rio das Velhas between dome-border shear zones (associated Supergroup, was either deposited or emplaced by with emplacement of the domes) and the thrusting, perhaps in a convergent-margin setting northwest-verging faults are preserved. Domeate plutonism (2.6 2.7 Ga) into the Rio das Velhas ( Teixeira et al., 1996). Roughly coeval intermedi- border shear zones and associated metamorsupracrustal rocks created a classic Archean granphism cut across northwest-verging folds, and thus development of the present dome-androunded by keels of greenstone [ Type-M dome- ite greenstone belt, with domes of granite surkeel architecture of the QF must postdate development of the northwest-verging folds. and-keel structure of Marshak et al. (1997b)], by Because dome emplacement can be dated as ca 2.6 Ga. 2.095 Ga, while units as young as 2.125 Ga are involved in northwest-verging folding, the 7.2.2. Formation of the Minas Basin northwest-verging folding must have developed After 2.6 Ga and prior to 2.4 Ga, the region to ca 2.1 Ga, that is, during the the east and southeast of the QF evolved into an Transamazonian event. ensialic or passive-margin basin [ Fig. 14(a)]. The (5) The date of the dome-emplacement event QF region itself became the continental-platform requires that it occurred during the final phase portion of this basin. Initiation of this basin repre- of Transamazonian tectonism in the region. sents an extensional event, as indicated by facies The fact that the dome-and-keel architecture distribution and depositional environments of the influenced the geometry of Brasiliano struc- Tamanduá and Caraça Groups ( Renger et al., tures in the region (e.g. leading to the develop- 1993).

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 49 Fig. 14. Cross-sections illustrating a model for the tectonic evolution of the QF prior to and during the Transamazonian orogeny. (a) Pre-Transamazonian configuration. The Minas Supergroup represents the continental platform portion of a passive margin. (b) Initial collision with the Transamazonian arc and an accreted continental block. The Sabará, foreland basin deposit, spreads into the interior of the craton. (c) During the final stage of collision, the Sabará is also deformed. (d) Extensional collapse begins, with development of a Cordilleran metamorphic core complex-style detachment. (e) With continued extension and heating of the crust, the extending belt evolves into a dome-and-keel province. The dome-and-keel geometry effectively represents crustal-scale boudinage. 7.2.3. Transamazonian northwest-verging thrusting west over an evolving foreland basin and onto the and folding (D1) craton. Eventually, the fold-thrust belt propagated At ca 2.1 Ga, the QF region evolved into northwestward into its own foreland basin, as is a northwest-verging foreland fold-thrust belt typical of many fold-thrust belts. It is inferred that [ Fig. 14(b and c)], resulting in the development of the hinterland of a collisional or convergent orogen thrust-sense shear zones and regional-scale folds, lay to the southeast of the QF, in a region that as well as second-order parasitic folds. This event, has subsequently been completely overprinted by however, did not generate a strong foliation. Brasiliano tectonism. Development of the Transamazonian fold-thrust From information available in the QF, it is not belt occurred soon after deposition of the 2.125 Ga possible to directly ascertain whether the contracti- Sabará Formation, a flysch sequence, that may onal event represents collision of an offshore arc, represent turbidites derived from volcanic highlands or the formation of an Andean-type convergent to the southeast. Sabará strata spread north- margin. However, the apparent lack of large vol-

50 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 umes of Transamazonian-age granitoids to the with recent geochronological studies. Thus, the southeast of the QF, suggests that the event represented only post-transamazonian shortening event to collision of an island arc. This interpretation create regional folds and associated fabrics in the is consistent with the model of the Transamazonian QF is the Brasiliano event (0.7 0.45 Ga). This orogeny proposed by Figueiredo (1989) and event created a west-verging thrust belt that reactivated Teixeira and Figueiredo (1991) for the northeast and overprinted older structures in the QF, lobe of the São Francisco craton. and represents one of the several collisional orogenies that led to the final assembly of Gondwana. 7.2.4. Transamazonian Orogenic collapse (DC) It also resulted in reactivation of westerly-trending At ca 2.095 Ga, regional extension [ Fig. 14(d dome-border shear zones as strike-slip faults. and e)] yielded a new dome-and-keel terrane (both reactivating and cross-cutting the Archean dome- 7.2.7. Tectonic significance of the Transamazonian and-keel terrane). Supracrustal rocks sank into event new keels between basement domes. This event is According to Cordani et al. (1988), ca 35% of attributed to the extensional collapse phase of the the volume of the Brazilian shield formed during Transamazonian orogen [see Marshak et al. the Paleoproterozoic. Many geochronological (1997a,b) for details of the model ]. Regional studies ( Teixeira et al., 1989; Teixeira and extensional strain in the QF region associated with Figueiredo, 1991; Teixeira and Silva, 1993; this event may be recorded by deposition of the Barbosa, 1993; Ledru et al., 1994b) indicate that Itacolomi Group in narrow basins. this tectonic activity was concentrated between 2.1 and 1.9 Ga, the Transamazonian event. Here, recognized 7.2.5. Espinhaço and younger rifting (DE) manifestations of the Transamazonian Formation of the Espinhaço rift basin to the event around the São Francisco craton are analyzed northeast of the QF, along with intrusion diabase with and their relationship to the dikes in the QF, occurred at ca 1.75. This event Transamazonian orogenic relict of the QF being created a broad ensialic basin on the eastern discussed. margin of the São Francisco craton. Renewed The Transamazonian orogeny in the northeastern extension at ca 0.9 1.0 Ga succeeded in forming lobe of the São Francisco craton resulted in an oceanic basin east of the Espinhaço belt the collision of two relatively large crustal blocks, (Pedrosa Soares et al., 1992). Whether Espinhaço the Gavião block on the west and the Gabon extension represents a continuation of block (now exposed only in Africa) on the east, Transamazonian orogenic collapse, or is a completely along with intervening crustal fragments (accreted separate event, remains unclear. Similarly, terranes) known as the Jequié and Serrinha blocks, it is not known whether some extensional structures and a Paleoproterozoic magmatic arc [Fig. 15; and even dome reactivation in the QF Figueiredo (1989); Sabaté et al. ( 1990); Barbosa occurred at the same time as Espinhaço rifting. ( 1993); Martin et al. (1992); Marinho et al. ( 1993)]. Paleoproterozoic greenstone belts (the 7.2.6. Brasiliano west-verging thrusting (D2) Contendas-Mirante, Itapecuru and Rio Capim In the model presented here, the concept of a belts), now displaying dome-and-keel architecture, north south shortening event [the Uruaçuano of developed in back-arc to arc environments adja- Marshak and Alkmim (1989)] has been aban- cent to this volcanic arc (Schrank and Silva, 1993), doned, for it is now clear that the east-trending and the Jacobina Group ( Figueiredo, 1989; synclines (e.g. the Dom Bosco syncline) of the QF, Teixeira and Figueiredo, 1991; Mascarenhas et al., which Marshak and Alkmim (1989) attributed to 1992), a clastic wedge comparable in age and the Uruaçuano are actually just keels resulting lithology to the Itacolomi Group, was deposited from dome emplacement, not compressional structures related to north south shortening. The lack of a Uruaçuano event in the QF is compatible between 2.08 and 1.91 Ga in a molasse basin along the eastern edge of the Gavião block (Ledru et al., 1994a, 1996; Marinho et al., 1993). The orogeny

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 51 Fig. 15. Tectonic map of Transamazonian features in the São Francisco craton region, showing possible Transamazonian sutures and correlation of the Transamazonian belt in the QF with its equivalents in the northern lobe of the craton. See text for explanation. Geology of the northern lobe of the São Francisco craton is adapted from Inda and Barbosa (1978), Figueiredo (1989), Figueiredo and Barbosa (1993), Teixeira and Figueiredo (1991), Barbosa (1993), Ledru et al. (1993, 1994a,b, 1996). also resulted in metamorphism up to granulite et al., 1991). Transamazonian structural trends grade, as well as in voluminous plutonism and and sutures in this northeastern lobe strike north volcanism ( Figueiredo, 1989; Teixeira and south and generally verge to the west, but also Figueiredo, 1991; Barbosa, 1993; Machado et al., display a strong sinistral strike-slip component of 1993; Ledru et al., 1993, 1994a,b, 1996; Conceião motion (Alves da Silva et al., 1993). These obser-

52 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 vations suggest that the principal shortening direc- Haralyi and Hasui (1982). Cunningham et al. tion trended northwest during Transamazonian ( 1996) have also found evidence for preserved convergence. Transamazonian granulites in the Coastal Mobile Clearly, the Transamazonian orogeny of the belt, but this proposal needs further testing. Third, northeastern lobe represented a complex episode recent radiometric dating suggests the occurrence of accretionary tectonics. Did this style of tectonism of Transamazonian-age granitoids in the region also affect the region to the south, a region southeast of the São Francisco craton [the Alto which now comprises the Brasiliano-age Araçuaí Maranhão pluton, dated at 2.08 Ga by Noce and Coastal Mobile belts? Cordani et al. ( 1988) ( 1995)]. Further, the Coastal Mobile belt contains and Teixeira and Figueiredo (1991) imply that the many orthogneisses which may have initiated as answer is no, and thus that continental growth arc-related plutons. during the Transamazonian event south of the Did even more terranes accrete to the southeast northeastern lobe of the São Francisco was rela- of the São Francisco craton during the Transamazonian tively minor, for Paleoproterozoic units are sparse event? So far, none have been docutively in this region, and tectonism appears to have mented, perhaps because of the severe overprint occurred dominantly in an ensialic setting. As of Brasiliano tectonism in the region obscures demonstrated, however, there is a record of candidates. Detailed geochronological studies Transamazonian fold-thrust belt tectonism in the using new technology may begin to see through southeastern São Francisco craton (i.e. to the west the overprint and outline Transamazonian crustal of the Coastal Mobile belt). We argue that this blocks. tectonism represents a relict of a Paleoproterozoic Fig. 16 provides a speculative reconstruction of Wilson cycle, beginning with the formation of a crustal provinces along the eastern margin of the continental margin, and concluding with the devel- São Francisco orogeny subsequent to the opment of a northwest-verging frontal collisional Transamazonian orogeny. In this model, as also orogen. One might expect, therefore, that the suggested by Cordani et al. (1988) and Teixeira hinterland of this orogen and associated accreted and Figueiredo (1991), the QF lies in the foreland terranes, lie in the region that is now the Brasiliano of the Transamazonian orogen. Magmatic arcs Coastal Mobile belt (Fig. 15), and thus that and accreted terranes lie to the east and southeast, Brasiliano structures of the Coastal Mobile belt together comprising the larger continent that then overprint crust initially attached to a continental rifted during the Espinhaço event. South of the mass by the Transamazonian assembly. northeastern lobe, this region was largely reworked Is there evidence suggesting that Transamazonian during the Brasiliano orogeny. Bertrand and crustal boundaries found in the north- Jardim de Sá (1990) and Ledru et al. (1994a,b) eastern lobe of the São Francisco craton track into have proposed similar reconstructions. the Coastal Mobile belt? We say yes, for the following reasons. First, geochronological studies carried out in this area by Söllner et al. (1991) 8. Conclusions and Figueiredo and Teixeira ( 1996) indicate that this region contains a record of the The Transamazonian event of the QF, in the Transamazonian event. Second, Cunningham et al. southeastern portion of the São Francisco craton, (1996), who completed a structural transect across took place in two stages. First, northwest-verging the region between the São Francisco craton and contraction created a thin-skinned foreland the Atlantic coast (i.e. across the Araçuaí and the fold-thrust belt. This belt thickened a sequence Coastal Mobile belts), identified a possible candidate consisting of the Rio das Velhas Supergroup for a suture along the strike of the suture (an Archean greenstone belt) and the that defines the west edge of the Jequié block. This Minas Supergroup (a Paleoproterozoic platform possible suture corresponds to strong linear sequence). The thrusting event, which occurred Bouguer anomaly described in the region by shortly after 2.125 Ga, created large northeast-

F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 53 Fig. 16. Tentative reconstruction of principal belts in the Transamazonian orogen of the São Francisco craton region. trending anticlines and synclines, along with para- collision/collapse phase in a Paleoproterozoic sitic folds and southeast-dipping shear zones. At Wilson-cycle tectonics, comparable to Phanerozoic ca 2.095 Ga, the thrust belt underwent orogenic collision/collapse events in terms of strain significance collapse, resulting in development of a dome-andkeel and tectonic setting, but different in terms province. As discussed by Marshak et al. of structural style. The style of Transamazonian (1997a), the dome-and-keel structure occurs in the structural features in the QF closely resemble the same tectonic setting as the metamorphic core style of structures in other Paleoproterozoic orogens, complexes of the U.S.A. Basin-and-Range, but are such as the Penokean orogen along the kinematically different, in that they are not simply southern edge of the Canadian Shield, in Michigan warped detachment horizons. Transamazonian ( Marshak et al., 1997a). collapse may also have created narrow intermon- The collisional event leading to the tane basins which filled with the Itacolomi Group Transamazonian fold-thrust belt of the QF may sediments. Crustal extension, ultimately leading to have involved accretion of an island arc and/or formation of a new oceanic basin east of the São exotic terranes to the east and southeast margins Francisco craton, did not begin until the end of of the São Francisco craton. Thus, accreted provinces the Paleoproterozoic (1.78 Ga) and may not and sutures exposed in the northeastern lobe have been totally successful until the end of of the São Francisco craton may trace into the the Mesoproterozoic (1.0 0.9 Ga). Effectively, Brasiliano Araçuaí and Coastal Mobile belts. the Transamazonian represents the record of the Overall, therefore, the Transamazonian event rep-

54 F.F. Alkmim, S. Marshak / Precambrian Research 90 (1998) 29 58 resents the initial assembly of crustal fragments Almeida, F.F.M., 1981. O Cráton do Paramirim e sua relação now comprising South America into a larger contido São Francisco e suas faixas marginais, Salvador. Soc. com o do São Francisco. In: Anais do Simposio do Cráton nental mass. This mass fragmented in the Bras. Geol., Núcleo Bahia/Sergipe, pp. 1 10. Mesoproterozoic and then ultimately reassembled Almeida, F.F.M., Hasui, Y. (Eds.), 1984. O Pré-Cambriano do during the Neoproterozoic to form Gondwana. Brasil. Edgard Blücher, São Paulo. Almeida, F.F.M., Hasui, Y., Brito Neves, B.B., Fuck, R.A., 1981. Brazilian structural provinces: an introduction. Earth Sci. Rev. 17, 1 29. Acknowledgment Alves, B.P., 1969. Geologic map of the Serra da Piedade Quadrangle, Minas Gerais Brazil. U.S. Geological Survey Prof. Paper, 641-A, Plate 3. U.S. Geological Survey, U.S.A. The authors are grateful for discussions during Alves da Silva, F.C., Chauvet, A., Faure, M., 1993. Thrusting, the course of this work with Dickinson wrench-type tectonics and granite emplacement during an Cunningham, Hanna Jordt-Evangelista and Early Proterozoic basin closure: the example of the Rio Hannes Brueckner, and for reviews of the manudo Itapicuru greenstone belt NE-Brazil. In: Anais II Simp. Geol. Cráton do São Francisco, Salvador. Soc. Bras. Geol, script by T. Kusky, R.A.J. Trouw and an anony- Núcleo Bahia/Sergipe, pp. 63 66. mous reviewer. This work was supported by CNPq Anhausser, C.R., Mason, R., Viljoen, M.J., Viljoen, R.P., 1969. Grant No. 91.01153/90.6 to F.F. Alkmim, and Reappraisal of some aspects of Precambrian shield geology. NSF Grants Nos EAR 90-04219 and INT Bull. Geol. Soc. Am. 80, 2175 2200. 93-01292 to S. Marshak. Babinski, M., Chemale, F. Jr, Van Schmus, W.R., 1991. 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